Characterization of High-<inline-formula><tex-math notation='LaTeX'>$Q$</tex-math></inline-formula>Inductors Up to its Self-Resonance Frequency for Wireless Power Transfer Applications

Arturo Fajardo Jaimes; Fabian L. Cabrera; Fernando Rangel de Sousa

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$Q$

Inductors Up to its Self-Resonance Frequency for Wireless Power Transfer Applications

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Characterization of High-$Q$Inductors Up to its Self-Resonance Frequency for Wireless Power Transfer Applications

机译：高 $ Q $ 电感器的特性，可在无线电力传输应用中达到自谐振频率

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The primary coil of an efficient asymmetric inductive link (IL) has a high quality factor and operates near its self-resonance frequency (SRF). Therefore, its characterization is challenging, especially because the measurement instruments must be able to measure a large reactance and a very small resistance at a frequency where the inductor radiates. In this letter, we present a method suitable for characterizing high-

$Q$

inductors up to its SRF. The proposed method uses an inductive sensor to characterize the inductor under test without galvanic contact. The method was validated by applying it to the primary coil of an asymmetric IL. The empirical results are consistent with the theoretical model and the full-wave simulations.

机译：有效的非对称感应链路（IL）的初级线圈具有高品质因数，并在其自谐振频率（SRF）附近工作。因此，其表征具有挑战性，特别是因为测量仪器必须能够在电感器辐射的频率下测量大电抗和非常小的电阻。在这封信中，我们提出了一种适合表征高 n

$ Q $ n电感器直至其SRF。所提出的方法使用电感传感器来表征没有电流接触的被测电感器。通过将该方法应用于不对称IL的初级线圈进行了验证。实验结果与理论模型和全波模拟吻合。

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来源
《Microwave and Wireless Components Letters, IEEE》 |2018年第12期|1071-1073|共3页
作者
Arturo Fajardo Jaimes; Fabian L. Cabrera; Fernando Rangel de Sousa;
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作者单位

Radio Frequency Laboratory, Federal University of Santa Catarina, Florianópolis, Brazil;

Radio Frequency Laboratory, Federal University of Santa Catarina, Florianópolis, Brazil;

Radio Frequency Laboratory, Federal University of Santa Catarina, Florianópolis, Brazil;

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正文语种 eng
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关键词
Inductors; Frequency measurement; Q measurement; Q-factor; Integrated circuit modeling; Capacitors; Wireless power transfer;

机译：电感器;频率测量;Q测量;Q因子;集成电路建模;电容器;无线功率传输;

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Characterization of High-$Q$Inductors Up to its Self-Resonance Frequency for Wireless Power Transfer Applications

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